Wheel



Oct. 5; 1937. F. w. BURGER 2,

WHEEL Original Filed Dec. 7, 1931 5 Sheets-Sheet 1 FOE/7 for:

Oct. 5, 1937.

F. W. BURGER WHEEL Original Filed Dec. 7, 1951 5 Sheets-Sheet 2 F. w. BURGER Q 2,095,054

WHEEL Oct. 5, 1937.

Original Filed Dec. 7, 1931 5 Sheets-Sheet 3 @fga Oct. 5, 1937. F. w. BURGER I 2,095,054

WHEEL ori inl Filed Dec. 7, 1931 may:

Oct. 5, 1937. w, BURGER 2,095,054

WHEEL Original Filed Dec. 7, 1931 5 Sheets-Sheet 55 H60 drum is'superiqr, where cast iron is used, especially Figure 2 is i elevati emma 0... at Y 2. 5.

UNITED STATES PATENT OFFICE.

Clark Equipment Company, Buchanan, Mich., a corporation of Michigan Application December '1. 1931, SerlalNo. 579,465

. Renewed July at, late The present invention relates generally to integral part eliminates the necessity of the'sev-r wheels for automotive vehicles and the like. eral fits and production tolerances which are re- Theprincipal object of the present invention quired where the brake drum is a separate ma-v is to provide a wheel in which the brake drum chined part of the wheel. Y and wheel body together form-a rigid complete Another principal feature of the prese'nt inven- 5 unit. More specifically, the present invention contlon is the provision of an integral brake drum templates the provision of an-integral wheel hub and wheel hub construction in which the wheel and brake drum upon which the wheel body or body or spider is so mounted thereonand secured spider is mounted and rigidly secured thereto. thereto thatdrivlng stresses are transmitted from 10 One of the prime requisites in automotive vehithe drive shaft directly to the wheel body without -10 cle construction is the requirement for good being transmitted through the brake drum to any brakes. Particularly is this trueunder modern great extent. This is of particular importance in traffle conditions. In the manufacture of wheels connection with full floating axles which is, as is for automotive vehicles and the like it is generalwell understood, aconstruction in which the wheel 1y customary to form the 'wheel body or spider, is separately journaled or mounted for rotation 15 hub, and brake drum as separate elements and on theouter end of the stationary axle housing then, in the assembly of the wheel, to secure these with the drive shaft connected with the wheel inparts together to form the "complete wheel. In the dependently of the bearings supporting the wheel use of this method it .was very difficult to secure a on the housing. The present invention as emcompleted wheel in which the various bearing and bodied in the preferred construction is particularbraking surfaces were accurately alind. It is, 1y adapted for the full floating axle in that the of course, obvious that safe and reliable brake. lntegralwlieelhub and brake drum can be mountoperation is dependent upon having the braking ed'on thetubular axle-housing and the driving surfaces, which are generally cylindrical, very 1 connection be made directly with the wheel body accurately disposedwith the axis thereof exactly mounted on the wheel hub. 25 coinciding with the axis of the bearings sup- In this type of construction the present invenporting the wheel. Naturally, where the brake 'tion has for its further, object the provision of drum is separately formed and is secured to the means for securing the wheel body on the wheel wheel bybolts or the like it is practically imhub-which also includes parts efl'ective in securpossible to secure the brake drum in exactly the ing the driving flange of the drive shaft to the 30 right position. Where, inaccordance with the wheel body. This construction makes for a sim- .present invention, the hub and brake drum are pler wheel in that certain parts perform a double formed integrally as one part and machining this duty in both securing the wheel parts together as part as a unit, the yariousmachined surfaces will. a rigld'unit and also transmitting the driving be exactly lined up and the central bearing bores torque from the driving shaft directly to the wheel 5 will be very accurately located with respect to body. the braking surface.- This is a distinct advap; other objects and advantages of the present ins d makes for longer drum l s w ll as vention will be apparent to those. skilled in-the D 8 8 t life of the brake Shoes and; p art after a consideration of the following detailed 40 s i on. a t r o e t o and equalit description of the preferred structural embodiofgaiction between the four brake drums of the car men; illustrated m the accompanying drawings I or truck. in wh m; l Another object of the inventmn is Figure 1 is across sectional view taken through for m the integralbmke'dmm and wheel hub as a wheeland axle construction embodying a wheel tantal m-1.35.5:restrain: m

face is superior to drums formed of pressed steel if gfi il g g a z m or other metal and that braking conditions are m a y moun 0 very much improved and the life of the brake axle housing;

on, somewhat on a rewhere a special; grade of electric furnace iron can duced e. showing the o p d wheel u t; be employed. The wheel body is preferably Figure 3 isan enlarged fragmentary view illusformed, as is common practic'efof malleable iron trating one means for securing the tire rims on or steel; the peripheral portion of the wheel body;

Forming the brake and wheel hub as an Figure 4 is a perspective view' illustrating my 55 40 the end of the axle housing I b A brake drum :5, havin improved integral brake drum Figure 5 is a fragmentary view of the inside 7 portion of the wheel body which fits against por-, tions of the brake drum when the wheel is assembled as a rigid unit;

Figure 6 is across Sectional View illustrating the principles of the present invention as embodied in a front wheel or any wheel which is not a drive wheel;

Figure 7 is a side elevation at a reduced scale of the wheel shown in Figure 6;

Figure 8 is an enlarged fragmentary elevation illustrating the means for securing the tire carrying rim on the wheel shown in Figures 6 and '7 Figure 9 is a perspective view illustrating the integral brake drum and wheel hub shell con-' struction particularly adapted for the wheel shown in Figure 6;

Figure 10 is an inside viewof the wheel body showing the face or surface which is received against the brakedrum when the wheel is assembled; and

Figu e 11 is a view similar to that shown in Figure 1 but illustrating a slightly different form of wheel body .particularly adapted to receive a single tire carrying rim. I

' Referring now more particularly to Figures 1,

and 5, the referencenumeral I indicates an axle tubeor housing supporting its proportion of the weight of the car or other vehicle. The outer end 2 of the axle housing is reduced and is provided with seats 4 and 5 to receive, respectively, the inner races of the outer and inner bearings 1 and 8. The outermost end of the axle housing I is threaded and receives a pair of lock nuts I6 and II by which the bearings I and Bare adjusted.

A wheel hub shell I5 is rotatab ly mounted on, g y means of the bearings 1 and 8, and the hub shell I5 is provided with laterally outer and bores I6 and I! to receive, respectively, the outer races I3 and of the bearings I andll. g an interior cylindrical braking surface 26 joined to the hub member I5 by a web or head in the form of a diaphragm serving as a backing plate, is formed integrally with the wheel hub shell I5. The brake 5o drum is flanged, as best shown in Figure 1, so

as to provide a substantially uninterrupted Z- section, thereby materially increasing the strength of the brake drum stresses. Preferably the wheel 55 drum 25 are formed of cast iro hub 5 andbrake n, electric furnace iron being generally the most satisfactory ma- 'terial. As pointed out above, drum and wheel hub shell are the bearing'bores I6 and I1 and the brakin surno face 26 can be very accurately machined s these portions will be accurately located and-lined up, not only when the wheel is new but also these where the brake integrally formed portions will retain their correct relative posi-- vtions during the entire life of the wheel.

The wheel body or. spider 36 is preferably formed separately of the wheel hub shell and brake drum member. This wheel body or spider 30 is formed preferably of malleable iron or steel, whereas as above stated the brake drum and 70 bearing shell member I5 is formed of cast iron. Thus the parts are formed of materials which are well adaptedfor the specific service in the organization of which they are a part. In order to mount the wheel body or spider 30 on the wheel 75 hub shell I5 the latter is providedwith flanges 32 inner bearingfl against braking and 33 adjacent the ends of the hub. Flange 32 is disposed adjacent the laterally outer end of the hub shell l5 and is somewhat smaller in diameter than the laterally inner flange 33 which is disposed at the r(Tiler end of the hub shell at thejunetion betwe n the integral hub member I5 and'the brake d member 25. These flanges 32 and 33 provide radially outwardly facing seats or shoulders 35 and 36 upon which the corresponding portions of the wheel body or spider 30 are received. The wheel hub shell I5 is provided with a number of radial fins or reenforcing webs 38 to strengthen the-construction and to connect the flanges 32 and 33.

The wheel body 30 is adapted to be'seated on 15 the shoulders or seats 35 and 36 in the manner best shown in Figure 1. For this purpose the central portion of the spider or wheel body is formed with a central hub section having a pair of laterally spaced radially inwardly directed flanges 44 and 45 of continuous ring-like formatlon providing inwardly facing shoulders formed to engage with the flanges 32-and 33. These abutting or interengaging surfaces are preferably accurately machined so as to correctly fit and thus accurately center the wheel body on the hub, and they are spaced apart axially a sufficient distance to adequately take care of all lateral stresses to which the wheel body is subjected. Also, since the wheel body seating flanges 44 and 45 are continuous ring-like portions, the hoop strength thereof serves at all times to hold the wheel body in proper position on the hub member while preventing radial and lateral loads from distorting the wheel body where it seats on the hub member.

The inner flange 45 is formed in the nature of a thickened section on the laterally inner side of the wheel body, and this section has a substantially planar inner face to fit against a similarly formed face 46 on the hub and brake drum disposed substantially at the junction between the inner portion of the brake drum member and the hub member just outside the flange 36 upon which the flange 45 seats, this portion of the integral hub and brake .drum member being rigidly tied in with the cylindrical portion of the hub section I5 by the radial fins 38. At the face 46 the brake drum 25 is formedin a thickened portion, as indicated by the reference numeral 48 in Figure 1. At spaced points the thickened section on the wheel body and the thickened portion on the brake drum are apertured, as at 50 and 5|, and around these aper-' tures the thickened sections are extended, as at 53 and 54, to provide for ample material at these points to take care of driving and braking strains and stresses. The openings 5| in the wheel'body 30 are ferably threaded to receive cap screws 51 wh pass through the openings 50 in the openings 5|. When these cap screws 51 are tightened the wheel body 30 is clamped against the brake drum on the wheel hub withthe faces 45 and 46 in abutting engagement, but the attaching means 51, being disposed practically as close as possible to the hub section I5, not only serves to' hold the wheel body on the integral brake d11im.;nd the hub member b, in addition, performs thisfunction in a, man r'i'er which relieves the brake drumof practically all stresses arising by virtue of radial and lateral thrusts to which the wheel .body is subjected, these forces being transmitted directly to the hub section I5 75 without going through any portion of the brake drum member.

'best shown in Figures 1 and 11.

The wheel body or spider 30 may take any convenient form but, as illustrated, the wheel body comprises a hollow thin walled casting having a plurality of radially extending interconnected hollow spokes 60, see Figures2, 3 and 5. The walls ofthe hollow spokes merge toget er at the inner ends of the spokes to form outwardly arched walls between the spokes. walls provide a hub of maximum rigidity and serve to distribute the stresses upon the individual spokes over an extensive part of the hub andto the rings 44, 45. The laterally ;outer portion of the wheel body 30 is formed with a central radially inwardly projecting flange 65 which lies laterally outwardly of the seat or shoulder 35 but which is so disposed as to lie against the flange 32 when assembled on the. wheel hub, as This radially inwardly extending flange 65 is arranged to lie between the driving flange H and the radially outwardly extending flange on the wheel hub. The flange 32 is provided with-a plurality of threaded apertures 68 while theflanges 4i and 65 are provided with registering openings 69 and [0. Stud bolts II are arranged to pass through the openings 69 and i0 and into the threaded openings 98 in the flange 32. The stud bolts II are cylindrical for a greater part of their length andthe cylindrical portion of each of these bolts is of slightly greater diameter than the threaded end, as best illustrated in Figures 1 and 11. The cylindrical portion of each of these studs is received by the openings 69 and I0 and extends partly into the corresponding, opening in the flange 3-2, For this purpose the latter is formed with a counterbore 13 to accommodate the inner most end ofthe cylindrical portion of the stud 1|. Thus, when the stud bolts 'II are tightened the wheel body or spider 30 issecurely clamped to the uppermost end of the wheel hub by means which not only acts as securing means but also is effective in transmitting driving torque directly from the drive shaft 40 to the wheel body itself.

This is an important-feature; particularly in connection with axles of the full floating type. From Figures 1, 4 and 5 it will be observed that the integral steel hub and brake drum member and the wheel body are held in flrm relationship by the three cap screws 51 which pass through the openings 50 and5I. After the entire wheel assembly is mounted on the-axle tube and the bearings I and 8 properly adjusted, the drive flange stud bolts II are inserted through the openings 69'and I0 and threaded into the openings 58, thus further securing the wheel body and the hub together. In ordinary constructions the separate brake drum is fastened to the wheel with six cap screws, but in the illustrated con-v struction there are actually nine studs rigidly se- .curing the wheel body and the brake drum together. This makes for a very rigid construction and one which is secured by comparatively few parts. As stated above the driving torque 'is transmitted directly to the wheel body by virtue of the stud bolts II transmitting the torque directly from the flange 4| .to the wheel body. The greater part of the entire driving torque is thus transmitted, but because the two flanges 65 and M are rigidly connectedwith the hub member I5 a certain portion of the driving torque is transmitted through the hub I5 and the brake drum 26 to the cap screws 51 and thence to the wheel body. It is also important to note that by virtue These arched of the three cap screwsi'l braking stresses aretransmitted directly from the brake drum 25 to the wheel body without going through the hub II.. of course, for the reasons just pointed out a certain portion of the braking stresses are transmitted'through, the studs II to the laterally outer portion .of the wheel body 30. The important practical-advan tage of this construction resides in this, namely, that inasmuch as the braking torque is transmitted through the cap screws 51 from the brake arm directly to the hub of the wheel body and the driving torque is transmitted through the cap screws 'lI directly to the other end of the hub of the wheel body,

the effects of reversals oftorque upon the composite wheel, as by braking and driving, are minimized. The cap screws 51 are not subjected to reversal of forces, as they are intended to 'take substantially only the braking tqrque. Thus they 'donot tend to become loose. Likewise, the surfaces 36 and "are saved from wear by reversals of torque between the member I5 and the wheel spider 30.

The wheel body 30 is a free spoke end member. 'This means that the spokes are cantilevers anchored only at the hub until the rim is clamped to such spoke ends. In the operation of clamping the rim or rims to the spoke ends, it may sometimes occur that one spoke is stressed axially of the wheel considerably more than another. According to my present invention, this does not adversely affect the concentricity of trueness of the brake drum. The strength and resistance of the spider hub is such that an individual spoke may be bent without any appreciable effect on the brake drum. This is a highly important practical consideration.

The wheel body 30 carries two tire rims and 8|, at its periphery, the two rims being spaced by a suitable spacing ring 83, seated or centered on the outer circumference of the wheel body and provided with flanges 84 and 85 adapted to abut the adjacent marginal gutters 88 and 09. These last named portions provide tapered wedge surfaces-9| and 92 with which rim lugs 93 and 94 are adapted to engage. The rim lugs 93 and 94 are mounted on shoulders 95 and 96 forming a part of the wheel body. The lugs 99 and 94 are clamped by means of a clamping bolt 98. This means for seeming the rims 80 and BI on the wheel body is substantially the same as that disclosed in my copending application, Serial No. 503,433, flied December 19, 1930, to which reference may be had for specific details.

Figures 6 to 10 inclusive, illustrate the application of the principles of the present invention to a front wheel construction. In these figures the reference number I00 indicates a steering spindle upon which the front wheel is journaied by anti-friction bearings of any suitable form, the

outer bearing being indicated by the reference numeral I0 I. These bearings are adjusted by an adjusting nut I02 in the usual manner. is indicated in its entirety by the reference numeral I05. This hub is provided with a oylinsurface IIG. As in thecase of the structure illustrated in Figure l, the integral wheel hub shell and brake drum are preferably formed of The hub drum II5 having an interior cylindrical brake 1 enforcing flns-orwebs I2I.

The wheel body I I0 is preferably comprised of a plurality of radially extending spokes I25 joined by acentral connecting portion I26. This central portion of the wheelbody H0 is provided with apair '01 radially inwardly extending flange portions I30 and .I3I spaced apart laterally and of a diameter to cooperate, respectively, with the seating surfaces I06 and I08 of the wheel hub I 05. The laterally inner flange portion I3I of the wheel body is thickened and is provided with a number of apertured bosses I35 having threaded holes I36 to receive cap screws I38. Preferably, there are six openings I20 in the brake drum and six apertures I36 in the wheel body. As best illustrated in Figure 6, the six cap screws I38 pass through the openings I20 and are threadedly "received by therbosses I35. When the cap screws I36 are securely tightened the-wheel body H0 is securely attached to'the brake drum and hub structure, thereby forming a rigid wheel unit.

- As in the case of the wheel illustrated in Figure 1, the abutting surfaces formed, respectively, on

the brake drum and on the wheel body are planar so that the two parts of the wheel may be rigidly connected together. The laterally outer end of the hub I is provided with a reduced threaded end I40 whereby a hub cap I4I may be screwedthereon to enclose and protect the outer end of the spindle I00.

The radially outer ends of the spokes I25, that is, the outer periphery of the wheel body I I 0, carry a tire rim I45 securely clamped thereto by lug means I46. Preferably this lug means takes the I48 provided at the radially outer ends of the spokes I 25. The lug I41 includes a rim engaging portion I50 and a second portion I5I adapted to preliminarily aline the tire carrying rim I45. The latter is provided with the usual marginal gutter I55 which includes a tapered inner surface I56. The radially outer ends of the spokes I25 have a wedge surface I58 cooperating with the tapered surface I56 on the rim I45 whereby when the lug means I46 is tightened-as by the bolt and nut I60, the rim is securely mounted on the wheel body IIO.

By the above reference to the integrality of the present construction, it is not to be understood that the present invention is to be limited to a singl'emetallic one piece casting. By integrality is meant a mechanically continuous and permanent connection of a uniform and homogenous 1 nature, establishing, by such characteristics, an invariable relation as between the different sections involved whereby accuracy of manufacture,

form of a lug I41 slidably mounted on shoulders never before achieved, can be obtained. Such' sections or portions may, as in the present invention, actually be functionally separate sections.

It will be observed that the wheel body or spider H0 is held in place on the hub I05 by means of six cap screws. The number of these may, of course, vary. Preferably, however, the number of cap screws associated with the brake drum I I5 in F1gure'6 is somewhat greater than the num- It is, of course, within the scope of the present invention to provide securing means for clamping the laterally outer portion of the wheel body H0 to the laterally outerend of the hub I05, as in the case of the driving wheel shown in Figure 1. This construction would be the preferred one in case the front wheels are drive wheels. Where thefront wheel is not a drive wheel, however, the construction illustrated in Figure 6 is preferred. Figure 11 is a modification of the form of wheel illustrated in Figure l and shows the application of the present invention to a drive wheel, particularly for full floating axles, in which only one tire carrying rim is used. In this form the brake drum and wheel hub I5 are identical with the construction illustratedin Figure 1. The same is also true of the means for rotatably supporting the wheel hub and for driving the 25 same, hence the same reference numerals have been used on like parts.

In Figure 11, the wheel body I 10 is provided with laterally spaced flanges 44 and 45 which are adapted to seat on the flanges 32 and 33 on the wheel hub I5. In Figure 11, however, the spokes, I1I are disposed somewhat laterally outwardly as compared withthe spokes 60 in Figure 1, and the ends of the spokes I1I are formed in substantially the same manner as is illustrated in Figure 6 whereby the wheel isdesigned for carrying a single tire rim I15. The lug means I16 holding the rim I15 in. place on the wheelbody I10 is identical with the lug shown in Figure 6 and hence it need not be described further. The lug means shown in both Figures 6 and 11 is quite similar to that disclosed and-claimed in my copending application Serial'No. 504,714, filed December 26, 1930. a

While I- have shown and described the preferred structure, it will be apparent that various departures may be made from the structure illustrated. My present invention is, therefore, not to be limited to the specific means shown and described but, in fact, widely different means may be employed in the practice of the broader aspects of my invention, as defined by the appended claims.

What I claim, therefore, and desire to secure by Letters Patent is:

1. In a device of the class described, the combination of a brake drum and bearing shell member having a bearing shell provided with internal seats for anti-friction bearings and with external cylindrical seats for receiving a wheel body, said member having a rigid cast iron brake drum and drum head disposed at and permanently fixed to the inner end of the bearing shell, a hollow cast metal wheel body having rigid spokes and having an outwardly arched hollow hub, the ends of the o5 hub constituting rings seated upon said cylindrical seats on the bearing shell, cap screws extending through the drum head into the inner ring to hold the parts against axial displacement and to pin the wheel body and the brake drum together forv braking torque at this point of connection, and wheel driving means connected directly to the outer ring of the hub of the wheel body for transmitting driving torque directly to the wheel body, whereby the driving torque and termediate the ends thereof and finished to pro-.

' braking torque do not reverse the stresses upon said cap screws. 4

2. A wheel comprising a cast iron tubular'hub shell having an integral internal brake drum the .head of which merges into'the inner end of the hub shell, said hub shell having internally disposed bearing seats for anti-friction bearings one adjacent each end, and having externally disposed substantially cylindrical wheel seats spaced axially substantially the full free length of the hub shell, the inner seat being of a diameter larger ,than that .of the'out'er seat, said seats being of relatively short axial length, the inner seat being disposed substantially at the junction of the brake drum head and the hub shell, a hollow thin walled cast wheel body comprising hollow rigid spokes and a hollow hub having-two integral bear-,

ing rings spaced apart substantially the full axial length of the hub. and gripping said wheel seats,

clamping screws extending through the brake drum head substantially at said inner seat and being coupled to the inner ring and serving both to pin the hub shell and wheel hub together and to safeguard against axial displacement of the wheel body with respect to the hub shell.

3. The wheel of claim 2 wherein the wheel body has freespoke ends adapted for mounting a rim, the walls of said spokes at their inner ends merging into each other and merging intosaid rings, the junction of the walls of the inner ends of the spokes constituting arches joining the said rings and being highly resistant to distortion by cantilever loads on the spokes, the radial and axial loads on the individual spokes being transmitted to the wheel hub and being there dis- 4. In combination with "the wheel of claim 2 wherein the outer hub ring has an integral flange extending radially inwardly and seating flatagainst the outer end of the hub shell, of a drive spindle having a head comprising a disc, the margin of which lies flat against said flange, and screws extending through said disc and flange and clamping them to the outer end of the hub shell, whereby the torque of the spindle is transmitted directly to the wheel body.

5. The combination with the wheel of claim 2, wherein the outer hub ring has an integral drive connecting portion lying axially outside the outer seat, of a drive spindle having a head connected directly to said portion for transmitting torque directly between the spindle and wheel body.

6. A wheel member comprising a cast iron tubular hub shell comprising a relatively thin tubular wall and having internally disposed coaxial anti-friction bearing seats one adjacent each end, a pair of relatively thin integral flanges extending radially outwardly from each end of the tubular wall, the outer flange being relatively short radially and having a cylindrical periphery forming a wheel. seat, the inner flange extending outwardly radially further than the outer flange, said inner flange having an integral brake drum head formed integrally as a continuation thereof, and said head having an axially extending integral cylindrical flange forming an internal brake drum finished accurately coaxially and concentrically with said internal bearing seats,

ished to lie substantially in a plane at right angles' to the axis of the hub shell, an axially extending offset thickened portion on said inner flange invide a continuous external cylindrical seatin surface disposed radially inwardly of said aper-' tures and axially outwardly of said flnishedsurfaces, and a' series of longitudinally extending flanges integral with the walls of the hub shell and said inner radially extending flange to reinforce the 'shell and brace the said inner flange against the wall of the shell.

7. A wheel spider comprising a heuew cast metal hub and spoke structure comprising tubular free end spokes, the walls of which spokes merge together at the inner ends of the spokes to form a hollow hub, the walls of the hub being formed into two concentric rings, one at each end of the hub, said rings providing hoop strength for the ends of the hub, and also providing spaced continuous cylindrical supporting surfaces forthe unbalanced radial and axial loads upon the wheel spider, said walls of the hub between the rings and intermediate the spokes being -8. A wheel member comprising a cast iron tubular hub shell comprising a relatively thin tubular wall and having internally disposed anti-friction bearing seats, one adjacent each end, an integral 'radial flange at the outer end of said shell, a second integral radial flange at the inner end of said shell terminating in a cylindrical brake drum flange finished accurately coaxially and concentrically with said bearing seats, an annular ofiset shoulder extending outwardly from said second radial flange intermediate said shell and drum, said shoulder having a finished cylindrical external surface cooperating with a finished radial surface on saidsecond flange to form a seat for a wheel spider, and a finished cylindrical external surface on said first radial 20 arched outwardly to provide maximum rigidity flange forming a second seat for said wheel spider.

9. In combination, a wheelhub having a brake drum supporting portion at its inboard side, annular seating means on said hub, a wheel spider having means'engaging said seating means to mount said spider concentrically on said hub, means directly connecting said spider to said brake drum supporting portion to transmit the braking reaction directly to said spider radially outwardly of said hub portion, and a driving spindle extending through said hub and con-l nected directly to said spider outwardly of the outboard side of said hub to transmit driving action directly to said spider.

10. In combination, a wheel hub having a brake drum supporting portion at its inboard side, bearings in said hub, a driving spindle on said bearings extending through said hub, annular seating means on said hub, a wheel spider having means engaging said seating means for concentrically locating said spider on said hub, said spider having radially extending hollow spokes provided with means for mounting a tire rim on the outer ends thereof, said spokes at their inner ends merging into an annular portion embracing said hub, means for directly transmit ing braking reactions to said spider at the inboard side of said spider, and independent means directly connecting said spider to said driving spindle axially outwardly of said hub.

11. A vehicle wheel including a hub presenting an annular seating surface adjacent its innerend and an annular seat of smaller diameter adjacent the outboard end, internal beari seats dis posed in said hubradially inwardly 0 said annular seat, a wheel spider having axially spaced annular-s'eating surfaces engaging the seating surfaces of said hub to mount said spider concentrically on said hub and having a radially inwardly extending flange engaging the end face of said hub, said first-named seating surface terminating in a radially extending brake drum supporting portion, and a drivespindle extending through said hub and having direct driving connection to said spider flange and to said end face of said hub.

12. A combination wheel hub and brake drum comprising a tubular hub portion, a radially extending flange portion and an axiallyextending braking portion at the inboard end of said hub all formed as an integral one-piece fabrication,

annular axial and radial abutment surfaces on said flange portion, and on the outboard end of said hub, and spaced bearing seat portions disposed within said hub in substantial radial alignment with said abutment surfaces.

13. A combination wheel hub and brake drum comprising a tubular hub portion, a radially extending flange portion at one end of said hub portion terminating in an' axially extending braking portion all formed as an integral onepiece fabrication, said flange portion having an annular seating surface spaced radially from said hub portion, and a radial abutment surface on said flange portion extending radially outwardly from one end of said seating surface, and an annular seating surface at the opposite end of said hub portion terminating in a radially inwardly extending face.

14. A combination wheel hub and brake drum comprising a tubular hub portion, a: radially extending flange portion and an axially extending .braking portion, all formed as an integral one piece fabrication, said flange portion having annular radial and axially extending abutment surfaces intermediate said hub portion and said brake portion, a second annular seating surface about one end of said hub portion terminating in a radial endface on said hub portion, and internal spaced bearing seats in said hub portion between the planes of said radial seating surface on said flange portion and said end face.

FREDERICK w. BURGER. 

